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Survey on signal processing for GNSS under ionospheric scintillation: Detection, monitoring, and mitigation

Jordi Vilà‐Valls, Nicola Linty, Pau Closas, Fabio Dovis, James T. Curran

2020NAVIGATION Journal of the Institute of Navigation64 citationsDOIOpen Access PDF

Abstract

Ionospheric scintillation is the physical phenomena affecting radio waves coming from the space through the ionosphere. Such disturbance is caused by ionospheric electron-density irregularities and is a major threat in Global Navigation Satellite Systems (GNSS). From a signal-processing perspective, scintillation is one of the most challenging propagation scenarios, particularly affecting high-precision GNSS receivers and safety critical applications where accuracy, availability, continuity, and integrity are mandatory. Under scintillation, GNSS signals are affected by amplitude and phase variations, which mainly compromise the synchronization stage of the receiver. To counteract these effects, one must resort to advanced signal-processing techniques such as adaptive/robust methods, machine learning, or parameter estimation. This contribution reviews the signal-processing landscape in GNSS receivers, with emphasis on different detection, monitoring, and mitigation problems. New results using real data are provided to support the discussion. To conclude, future perspectives of interest to the GNSS community are discussed.

Topics & Concepts

GNSS applicationsInterplanetary scintillationScintillationGNSS augmentationRemote sensingComputer scienceSatellite systemSpace weatherSignal processingSIGNAL (programming language)Multipath propagationGlobal Positioning SystemTelecommunicationsGeographyMeteorologyPhysicsDetectorChannel (broadcasting)Coronal mass ejectionSolar windRadarMagnetic fieldProgramming languageQuantum mechanicsGNSS positioning and interferenceIonosphere and magnetosphere dynamicsGeophysics and Gravity Measurements
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